DE3227654A1 - OPTICAL INFORMATION RECORDING / PLAYBACK SETUP - Google Patents

Description

-4-1 Optical information recording / reproducing device

The present invention relates generally to an optical information recording / reproducing device and is particularly concerned with an optical information recording / reproducing device directed by which an information signal is recorded once on a recording medium and the information recorded on it can then be played back repeatedly.

A previously proposed optical information recording / reproducing device generally has the following deficiencies in its recording operation on.

In general, such a known optical information recording / reproducing device uses an optical one Recording medium or disk that for example by embedding a metal layer with a low melting point between transparent resinous layers or glass layers in the manner of a "sandwich" structure is formed. This recording disk becomes irradiated with a converging laser beam of high intensity depending on the information concerned, thereby partially melting the metal layer thereon is, with which it is possible, indentations or marking points, which are to be arranged spirally thereon, in which way a recording track will be built.

In this case, for example, if the convergence state of the laser beam is insufficient, the indentations or marking areas are not faultless can be formed on the recording disk.

In particular, it uses one that has already been proposed Set up an objective lens with a large numeric Aperture (NA) to use the laser beam effectively, see above

-δ-that even a slight defocusing defects of the previous one named type causes.

That is why it has already been suggested a reflected Beam, which is the laser beam per se, to be used in the recording process, this beam from the recording disk is scanned by an optical or photodetector to determine the convergence condition of the laser beam to detect and to be able to control them through the detected output signal.

However, this reflected beam from the pits or indicia becomes during the melting state is generated so that it is impossible to control the quality of the shape of the indicia that are fully formed capture. Because of this, the convergence condition of the recording laser beam cannot be accurate or positive can be controlled, so that it is very difficult to surely obtain a desired effect.

Accordingly, it is an object of the present invention to provide an optical information recording / reproducing device for recording and reproducing an information signal to or from a recording medium create, in which the previously mentioned defects, which the known device adhere, can be eliminated. Another object is the present invention is based on an optical information recording / reproducing device capable of recording optical information on an optical recording medium record under excellent recording conditions. In addition, the present invention is the Task is based on an optical information recording / To create playback facility in which the degree of

QO sharing of circuitry for both recording and reproducing ^{modes is greatly increased to thereby reduce costs.}

-δ-To solve the problem for the present invention an optical recording / reproducing device for recording and reproducing an information signal on and proposed by a recording medium that featured is through:

(A) a laser beam generator that is a laser beam source for generating a main beam as well as a has a first and a second hi-fi sias beam, which are arranged substantially in the direction of a recording track on the information recording medium is;

(B) a focusing lens for focusing the main laser beam and the first and second auxiliary laser beams on the information recording medium;

(C) detection means which have a main photodetector for Acquiring one from the information recording medium reflected main laser beam and a first and a second auxiliary photo detector for detecting a reflected from the information recording medium first and second hi-fi siaserstrahls included;

(D) laser beam intensity control means for controlling at least the main laser beam such that he has a large intensity sufficient to provide indicia in the information recording medium to form, and that it has a low intensity that is sufficiently small that no marking points in the information recording medium according to the information signal to train in a recording mode of operation, and for controlling at least the main laser beam to be substantially constant Has intensity which is sufficiently small that there is no marking point in the information recording medium to be generated in a playback mode; (E) focus control means for controlling the position of the focusing lens by using a difference signal for a difference between the outputs of the first and second Hi Ifsphotodetector

in a recording mode;

(F) lane following control means for controlling the lane following condition of the main laser beam so as to Record track by using the difference signal.

Other objects, features and advantages of the present The invention will become apparent from the description given in detail below with reference to figures. In the figures Identical elements and parts are given the same reference numerals.

Fig. 1 shows a schematic block diagram showing a Embodiment of an optical information recording / reproducing device according to the present invention.

Fig. 2 shows a sectional view showing part of an optical Represents recording medium. 20th

Fig. 3 is a plan view showing main and two secondary photodetectors.

Figure 4 shows a schematic representation of the relationship between the indentations or indicia on the optical recording medium and the laser beam incidence points.

The present invention is described in detail below for a preferred embodiment.

As already explained, Fig. 1 shows a schematic Block diagram showing the entire structure of an optical Information recording / reproducing device according to represents the present invention. The description of the embodiment according to the present invention is first carried out with reference to this figure.

In Fig. 1, reference numeral 1 denotes optical information drawing medium (recording disk) whose Structure is explained by way of example with reference to FIG. In Fig. 2, reference numeral 2 denotes a base or a Substrate (for example made of acrylic resin or the like. Or a transparent layer of glass or the like. or one low reflective layer), the reference number 3 a metal layer with a low melting point, which is formed on the substrate 1 (made of tellurium Te, either an alloy therewith or an oxide manufactured therefrom), the reference numeral 4 a protective layer (for example made of acrylic resin or a transparent one Layer, such as glass or the like. Manufactured) on the Metal layer 3 is formed, and the reference numeral a Indentation or marking point that looks like a through hole, which protrudes through the metal layer 3, is formed and which is melted out by a laser beam LB.

The reference numeral 6 generally designates a laser beam generator, which will be described below, wherein the reference numeral 7 denotes a laser beam source shown in FIG this embodiment practically as a semiconductor laser diode is executed. Numeral 8 denotes driving means for driving the semiconductor laser diode or the laser beam source 7, which has means for generating of a pulse current as a function of information and for varying the peak value or the pulse width thereof is equipped so that this value is large in the recording operation or is small in the playback operation.

A laser beam (a diverging beam or a "spherical wave" ) from the semiconductor laser diode or the laser beam source 7 is obtained through a masking lens 9 in a parallel beam ("plane wave") implemented and then guided to a diffraction grating 10, so that three beams, namely a beam with a diffraction O. Order (main laser beam LB) and rays with a beu-

supply +1. Order or -1. Order (first or second auxiliary laser beam LB ₁ and LB ₂ ) arise. These rays LB ₅ LB ,, LBp are guided through a polarizing beam splitter and a λ / 4 plate 12 to a tracking mirror (galvanomirror) 13, the corresponding reflected rays being converged by an objective lens 14 with a large value NA and then directly on impinging on the information recording medium 1 so as to form focal points thereon.

The above-mentioned beams LB, LB- "LB" are guided to the optical information recording medium 1 in such a manner that the dots or marks formed by the beams LB, LB-, and LB "are substantially along the direction of a recording track T, or the beams LB, LB ₁ , and LB ₂ are, as shown in Fig., Arranged on a line Y which is a central line ^ of the recording track T (which is a spiral line almost equal to a circle) below a small angle θ with an equal interval L (if this interval L is selected sufficiently wide, it is possible to detect the marking points that are safely and under stable conditions completed) so as in an order LB -, - ^ LB ^ - LB ₂ along a rotating direction ai (moving direction) of the optical information recording medium 1. In this case, the above-mentioned small angle θ is selected in such a way that, in the reproducing mode, each of left and right halves of the dots formed by the first and second auxiliary laser beams LB-, LB-, and LB _? are formed, each of the recesses or indicia 5 overlap.

The rays in question LB, LB-, and LB _? reflected from the optical information recording medium 1 follow the opposite path of the objective lens 14- »• tracking mirror 1 3 + A / 4-P1 atte 12 and then hit the polarizing beam splitter 11, whereby after being reflected thereon, the respective reflected beams

-ΙΟΙ LB, LB-, and LBp through a plano-convex lens (cylindrical Lens) 15 -> ■ be guided to a convergence lens 16 in order to in this way focal points on the detection surfaces of a Main photodetector D and a first and a second auxiliary photodetector D-. or to form Dp.

Next, these photodetectors D, D, and Dp will be referred to of Fig. 3 described. As shown in Fig. 3, the main photodetector D is arranged in the center, and the first and second photodetectors D-, and Dp are on both sides of the main photodetector D is provided. The main photodetector D consists of four detection sections which are horizontal and arranged vertically in which a reproduced information signal is represented by a sum of the detected signals that is represented by the four acquisition sections of the main photodetector D while a focus error signal is obtained by a difference between the sums of the detected output signals from pairs of the detection sections generated on the two diagonal lines will.

The focus error signal obtained from the main photodetector D is obtained is via an input terminal 17 to a Current / voltage converter 18 out, its output signal to an adder 19. The output of this Adder 19 is via a focusing servo amplifier 20 to an induction coil or LF coil 21 for driving a linear motor of the objective lens 14 guided to a Allow focus servo control of objective lens 14 to which is performed during both recording and playback.

In addition, the detected output signals of the respective first and second auxiliary photodetector D, u. U D ₂ each on further input terminals 22, 23 on the current / voltage converter 24 u. Come 25th The output signals which are emitted by these current / voltage converters 24 and 25 are fed to a differential amplifier 26 which

-πι acts both as a comparator and as a subtracter.

The output signal of the differential amplifier 26 is over a switch 27 which, during the recording mode assumes its switching state ON (and its switching state OFF in the playback mode) to one Analog / digital converter 28 supplied, its digital Output signal is fed to a microprocessor 29. That digital output signal emitted by microprocessor 29, is fed to a digital / analog (D / A) converter 30, the analog output signal (bias voltage) of which is fed to the adder 19, wherein it is added to the focus error signal will.

The microprocessor continuously carries out a test recording, for which purpose it forms a stepped signal or a sawtooth signal, which signals are suitable as test signals, and supplies it to the adder 19, whereby a reference bias voltage, which leaves the output signal of the differential amplifier 26 at a maximum value, the adder 19 is supplied, detected and stored therein. In an actual recording mode, the microprocessor 29 is operated in such a manner that, in order to bring the output signal voltage of the differential amplifier to a maximum value, the bias voltage supplied to the adder 19 is varied with respect to the bias voltage as the center voltage thereof. As described above, the laser beam LB is positively focused on the information recording medium so as to melt the metal layer 3 thereon to thereby form a defect-free mark 5 thereon. In this connection, each of the first and second Hi-Insias beams LB, LB _{2 has} an intensity which is too low to melt the metal layer.

Furthermore, the output signal of the differential amplifier 26 via a further switch 31, which has its switch position ON in playback mode, to a tracking servo amplifier 32 supplied, its output signal

a coil 33 of the tracking mirror (galvano mirror) 13 is supplied. In this case, the differential generates amplifiers 26, when the tracking is effected, no output signal, while when an erroneous Tracking occurs, the differential amplifier 26 be Output signal generated as a function of this, which enables is that the tracking mirror 13 is rotatably moved so that tracking is achieved in this way will. As previously stated, keys in the playback mode the main laser beam LB (its intensity unlike the recording mode is reduced), the recording track T correctly so that an information signal (e.g. a data signal) from the main photodetector D is played back.

According to the present invention as set forth above, there arises an advantage as set forth below will.

In the recording mode, the respective reflected laser beams from the first auxiliary laser beam LB, and the second Hi If si aserstrahl LBp through the first or second Hi If sphotodetektor D-, or D "detected to a Difference between these too. generate, thereby the reproduction condition of the optical information recording medium 1, by the main laser beam LB from the difference of the reflected Laser beams between the part where none Identification points 5 are formed, and the part are formed in the identification points 5, detected will. Then, the main laser beam LB in controlling the movement of the objective lens 14 enables so as the foregoing Difference from a maximum value so that the focus on the information recording medium 1 is surely formed and a marking point that points to it is to be formed is carried out in the same manner surely, thereby keeping the information on the optical recording medium 1 is recorded properly.

In addition, since in the playback mode, the first and second Hi If si asertstrahl LB, and LB "are used to to sense the tracking error, the degree of common Use of the laser beam generating means, the photodetector, of the circuit system etc. both for the recording as well as the playback mode so that this leads to savings in cost.

According to the above it stands for the information signal to record on the optical information recording medium, any method as long as the optical information recording medium is in its optical properties is changed, available.

The description given above relates to a simple preferred embodiment of the present invention Invention. It will be apparent, however, that numerous modifications and variations can be made by those skilled in the art without departing from the general inventive concept or the scope of protection for the invention would have to be. The scope of protection for the present invention is determined by the claims.

IP a ten t advocate

Claims (7)

Di ρ I.-I ng. H. MITSCHERUCH D-8000 MUNICH 2 2 Dipl.-Ing. K. GUNSCHMANN Steinsdorfstrasse 1.0 Dr. re p. not. W. KORBER "® ⁽⁰⁸⁹⁾ * ²⁹⁶⁶⁸⁴ Dipl.-I η g. J. SCHMIDT-EVERS
PATENT LAWYERS 7/23/1982 SONY CORPORATION
7-35, Kitashinagawa 6-chome,
Shinagawa-ku-Tokyo / Japan Expectations: / l .J Optical information recording / playback device for recording and reproducing an information signal on and from a recording medium, marked by: (A) a laser beam generator (6) which has a laser beam source (7) for generating a main laser beam (LB) and a first and a second auxiliary laser beam (LB · ,, LB “), which essentially goes in the direction of a recording track (T) on the information recording medium (1) is arranged; (B) a focusing lens for focusing the main laser beam (LB) and the first and second Hi If si aserstrahl s (LB- "LB") on the information recording medium (1); (C) detecting means comprising a main photodetector (D) for detecting a main laser beam (LB) reflected from the information recording medium (1) and first and second hi-photodetectors (D ,, Dp) for detecting a first reflected from the information recording medium (1) or second auxiliary laser beam (LB ₁ , LB ₂ ) contain; (D) laser beam intensity control means for controlling at least the main laser beam (LB) so that it has a large intensity sufficient to form indicia (5) in the information recording medium (1) and that it has a low intensity which is sufficiently small to no labeling places (5) in the information recording medium (1) according to the information signal in a recording mode to form, and for controlling at least the main laser beam (LB) such that it is substantially has a constant intensity which is sufficiently small that there is no marking point (5) in the Information recording medium (1) in a reproducing mode is produced; (E) focus control means for controlling the position of the focusing lens by using a difference signal for a difference between the output signals of the first and the second photodetector (D-., Dp) in a recording mode; (F) lane following control means for controlling the lane following condition of the main laser beam (LB), so record the track by using the difference signal chnen. 2. Optical information recording / reproducing device according to claim 1, characterized marked c h - net that the laser beam generator (6) contains a diffraction grating (10) for splitting a laser beam into the main laser beam (LB) and the first and second auxiliary laser beam (LB ₁ , LB ₂ ).
25th 3. Optical information recording / reproducing device according to claim 2, characterized in that the laser beam intensity control means are the Control the laser beam generator (6) in such a way that the laser beam from the laser beam source (7) is regulated. 4. Optical information recording / reproducing device according to claim 1, characterized in that the main photodetector (D) is a focus error signal that is the position of the focusing lens both in the recording mode as well as in the playback mode controls. 5. Optical information recording / reproducing device according to claim 4, characterized in that the focusing control means include a control signal generator which is supplied with the difference signal and a control signal for controlling the position
the focusing lens is generated together with the focus error signal such that the difference signal has its maximum value. 6. Optical information recording / reproducing device according to claim 5, characterized in that the focusing unit control means comprises a switch
(27), which is set to its ON state during a recording mode, so that the difference signal is fed to the control signal generator. 7. Optical information recording / reproducing device according to claim 1, characterized in that the laser beam generator (6) has a tracking mirror (13) to control the tracking position at least the main laser beam (LB) on the information recording medium (1) Contains and that the tracking agent control the tracking mirror (13).